McCarthy J T, Regnier C E, Loebertmann C L, Bergstralh E J
Division of Nephrology and Mayo Clinic Dialysis Services, Mayo Clinic and Mayo Foundation, Rochester, Minn. 55905, USA.
Am J Nephrol. 2000 Nov-Dec;20(6):455-62. doi: 10.1159/000046199.
Parenteral iron therapy is required in a majority of chronic dialysis patients who are receiving recombinant human erythropoietin (r-HuEPO) in order to provide adequate iron for erythropoiesis. At this time, there are only two formulations of parenteral iron dextran available for clinical use in the USA. These two preparations of iron dextran have different physical and chemical characteristics that might affect the adverse events experienced by dialysis patients receiving iron dextran.
We performed a retrospective analysis of all 665 courses of parenteral iron dextran which were administered in our hemodialysis unit from June 1992 through July 1997. An adverse event (AE) was defined as any event which led to interruption of the prescribed course of iron therapy or precluded subsequent administration of parenteral iron in the presence of documented iron deficiency. Database elements included patient age, gender, cause of renal failure, and prior history of drug allergy. The average hemoglobin value and serum iron parameters (iron, total iron binding capacity (TIBC), percent saturation of TIBC, and ferritin) were recorded both pre- and post-iron administration, when available. A course of parenteral iron dextran consisted of a 25-mg test dose, followed by four or five doses of 300 mg each. Iron dextran was infused into the venous limb of the hemodialysis blood circuit over the last 30-60 min of a dialysis treatment. The two forms of iron dextran were designated as Iron A (molecular weight = 165,000) and Iron B (molecular weight = 267,000).
Fifty-seven percent of our patients were male, 92% were of white race, and diabetes was the most common cause of renal failure (34%). Sixty-four percent of the patients were 60 years of age or older, and 39% had a history of allergy to one or more drugs. We observed 33 AEs during the administration of parenteral iron dextran, and these AEs occurred in 21 courses of parenteral iron dextran administration. Eighteen of the AEs were gastrointestinal in nature; 7 AEs were cutaneous in nature, 6 AEs had systemic manifestations, while only 2 AEs caused respiratory problems. Two of the AEs were felt to be anaphylactoid in nature. Female gender (p = 0.06) and iron dextran product (p = 0.02) were identified as potential risk factors for the development of an AE. There were 468 courses of Iron A administered, 10 of these courses were complicated by 15 AEs (one or more AE per course). One hundred and ninety-seven courses of Iron B were administered and 11 (5.6%) courses were complicated by the development of 18 AEs (9.1 AEs per 100 courses). Serum iron rose by 22 microg/dl and TIBC saturation increased by 14% after the administration of parenteral iron. The average serum ferritin level rose by 430 microg/l and hemoglobin values rose by an average of 0.8 g/dl. There were no significant differences in the changes of iron parameters or hemoglobin levels between the two iron dextran preparations.
The administration of parenteral iron dextran to chronic hemodialysis patients has a relatively high degree of safety. Both iron products were equally efficacious in increasing serum iron parameters and hemoglobin levels. Even when corrected for other factors, there was a significant difference in the observed AEs between the two formulations of parenteral iron dextran. Our observations, if true, may have important implications for the management of anemia in chronic hemodialysis patients. If a significant number of AEs prohibit the administration of a specific iron dextran product to a large number of chronic hemodialysis patients, then anemia management may become suboptimal. In the future, newer iron products may provide even safer alternatives for the administration of parenteral iron to chronic hemodialysis patients.
大多数接受重组人促红细胞生成素(r-HuEPO)治疗的慢性透析患者需要接受胃肠外铁剂治疗,以便为红细胞生成提供足够的铁。目前,美国临床可用的胃肠外右旋糖酐铁制剂仅有两种。这两种右旋糖酐铁制剂具有不同的物理和化学特性,可能会影响接受右旋糖酐铁治疗的透析患者发生的不良事件。
我们对1992年6月至1997年7月在我们血液透析单元进行的所有665个胃肠外右旋糖酐铁疗程进行了回顾性分析。不良事件(AE)定义为任何导致规定的铁剂治疗疗程中断或在记录有缺铁情况下妨碍后续胃肠外铁剂给药的事件。数据库元素包括患者年龄、性别、肾衰竭病因和既往药物过敏史。如有数据,在铁剂给药前后记录平均血红蛋白值和血清铁参数(铁、总铁结合力(TIBC)、TIBC饱和度百分比和铁蛋白)。一个胃肠外右旋糖酐铁疗程包括25mg的试验剂量,随后是四或五剂各300mg的剂量。右旋糖酐铁在透析治疗的最后30 - 60分钟内注入血液透析血路的静脉端。两种形式的右旋糖酐铁分别指定为铁A(分子量 = 165,000)和铁B(分子量 = 267,000)。
我们的患者中57%为男性,92%为白种人,糖尿病是肾衰竭最常见的病因(34%)。64%的患者年龄在60岁及以上,39%有对一种或多种药物过敏的病史。我们在胃肠外右旋糖酐铁给药期间观察到33例不良事件,这些不良事件发生在21个胃肠外右旋糖酐铁给药疗程中。其中18例不良事件本质上是胃肠道的;7例不良事件是皮肤性的,6例不良事件有全身表现,而只有2例不良事件引起呼吸问题。其中2例不良事件被认为本质上是类过敏反应。女性(p = 0.06)和右旋糖酐铁产品(p = 0.02)被确定为发生不良事件的潜在风险因素。共给予铁A 468个疗程,其中10个疗程出现15例不良事件(每个疗程1例或多例不良事件)。给予铁B 197个疗程,11个(5.6%)疗程出现18例不良事件(每100个疗程9.1例不良事件)并发症。胃肠外铁剂给药后血清铁升高22μg/dl,TIBC饱和度增加14%。平均血清铁蛋白水平升高430μg/l,血红蛋白值平均升高0.8g/dl。两种右旋糖酐铁制剂在铁参数或血红蛋白水平变化方面无显著差异。
对慢性血液透析患者给予胃肠外右旋糖酐铁具有较高的安全性。两种铁剂产品在提高血清铁参数和血红蛋白水平方面同样有效。即使校正其他因素后,两种胃肠外右旋糖酐铁制剂观察到的不良事件仍存在显著差异。我们的观察结果如果属实,可能对慢性血液透析患者贫血的管理具有重要意义。如果大量不良事件阻止向大量慢性血液透析患者给予特定的右旋糖酐铁产品,那么贫血管理可能会变得不理想。未来,更新的铁剂产品可能为慢性血液透析患者胃肠外铁剂给药提供更安全的选择。
